\section{Group -- Non-Zone Equipment}\label{group-non-zone-equipment}

The non-zone equipment group consists of plant objects that connect to the demand side of the plant loop but are not associated with a a specific Zone (and do not have their own group). There is currently one non-zone equipment object called \hyperref[loadprofileplant]{LoadProfile:Plant}. This object places a scheduled demand load on the plant.

Non-zone equipment allows the option of performing a plant-only EnergyPlus simulation, i.e.~without any zones. This can be useful for comparing the performance of various plant configurations or components without the added complexity of a full building description.

\subsection{LoadProfile:Plant}\label{loadprofileplant}

The LoadProfile:Plant object is used to simulate a scheduled demand profile. This can be useful when the building loads are already known. Demanded load and flow rate are schedules specified in the object definition. The load profile can specify heating and cooling loads. Cooling loads are entered as negative numbers. The actual load met is dependent on the performance of the supply loop components.

The LoadProfile:Plant object must be connected on the demand side of the plant loop. It should be located on a Branch with its control type set to Active. If desired, multiple LoadProfile:Plant objects can be combined in series and/or parallel.

\subsubsection{Inputs}\label{inputs-028}

\paragraph{Field: Name}\label{field-name-027}

The unique name of the LoadProfile:Plant object.

\paragraph{Field: Inlet Node Name}\label{field-inlet-node-name-002}

The name of the inlet node connection to the plant loop.

This node should be on the demand side.

\paragraph{Field: Outlet Node Name}\label{field-outlet-node-name-003}

The name of the outlet node connection to the plant loop.

\paragraph{Field: Load Schedule Name}\label{field-load-schedule-name}

Reference to the schedule object specifying the load profile {[}W{]}.  The value of load can be positive or negative.  Negative values here are for imposing a cooling load on the loop (with a chiller on the supply side, e.g.), while positive values are impose a heating load (with a boiler on the supply side).

\paragraph{Field: Peak Flow Rate}\label{field-peak-flow-rate}

The peak demanded water flow rate {[}m\(^{3}\)/s{]}. This value is multiplied by the flow rate fraction schedule values (below) to determine the actual volumetric flow rate.

\paragraph{Field: Flow Rate Fraction Schedule Name}\label{field-flow-rate-fraction-schedule-name}

Reference to the schedule object specifying the flow rate fraction relative to the value in the field Peak Flow Rate (above).

\paragraph{Field: Plant Loop Fluid Type}\label{field-plant-loop-fluid-type}

The fluid type of the plant loop; water or steam.

\paragraph{Field: Degree of SubCooling}\label{field-degree-of-subcooling-load-profile}

This field is used only when Plant Loop Fluid Type=Steam. The minimum value is 1$^\circ$ Celsius and default is 5$^\circ$ Celsius.

\paragraph{Field: Degree of Loop SubCooling}\label{field-degree-of-loop-subcooling-load-profile}

This field is used only when Plant Loop Fluid Type=Steam. The minimum value is 2$^\circ$ Celsius and default is 5$^\circ$ Celsius.

An example of this object follows.

\begin{lstlisting}
LoadProfile:Plant,
  Load Profile 1,             !- Name
  Demand Load Profile 1 Inlet Node,  !- Inlet Node Name
  Demand Load Profile 1 Outlet Node,  !- Outlet Node Name
  Load Profile 1 Load Schedule,  !- Load Schedule Name {W}
  0.003,                      !- Peak Flow Rate {m3/s}
  Load Profile 1 Flow Frac Schedule,  !- Flow Rate Fraction Schedule Name
  Water;                      !- Plant Loop Fluid Type
\end{lstlisting}

\subsubsection{Outputs}\label{outputs-020}

The following output variables and meters are reported for the LoadProfile:Plant object:

\begin{itemize}
\item
  HVAC,Average,Plant Load Profile Mass Flow Rate {[}kg/s{]}
\item
  HVAC,Average,Plant Load Profile Heat Transfer Rate {[}W{]}
\item
  HVAC,Sum,Plant Load Profile Heat Transfer Energy {[}J{]}
\item
  HVAC,Sum,Plant Load Profile Heating Energy {[}J{]}
\item
  HVAC,Sum,Plant Load Profile Cooling Energy {[}J{]}
\item
  HVAC,Average,Plant Load Profile Steam Outlet Temperature {[}J{]}
\end{itemize}

\paragraph{Plant Load Profile Mass Flow Rate {[}kg/s{]}}\label{plant-load-profile-mass-flow-rate-kgs}

This is the mass flow of the fluid passing through the load profile object, in kg/s.

\paragraph{Plant Load Profile Heat Transfer Rate {[}W{]}}\label{plant-load-profile-heat-transfer-rate-w}

\paragraph{Plant Load Profile Heat Transfer Energy {[}J{]}}\label{plant-load-profile-heat-transfer-energy-j}

These report the overall heat transfer rate and energy for the load profile object, in Watts or Joules.

\paragraph{Plant Load Profile Cooling Energy {[}J{]}Plant Load Profile Heating Energy {[}J{]}}\label{plant-load-profile-cooling-energy-jplant-load-profile-heating-energy-j}

These report the overall cooling or heating energy that the load profile object places on the plant loop, in Joules.

\paragraph{Plant Load Profile Steam Outlet Temperature {[}C{]}}\label{plant-load-profile-steam-outlet-temperature-c}

The inlet and outlet node temperatures and mass flow rates can be monitored using the system node output variables:

\begin{itemize}
\item
  HVAC,Average,System Node Temperature {[}C{]}
\item
  HVAC,Average,System Node Mass Flow Rate {[}kg/s{]}
\end{itemize}
